Message from @Hagar
Discord ID: 664943851764580388
ahahahhhaha
sexy
Sexy time
wtf
X: {0, (0, 1), 1}
Y: {0, 0, 1}
any X -> Y is a binary function
A: If the process t(0)->t(1) is binary, then we should observe t([0, 1)) == 0 and t({1}) == 1
hahaahahah
why was it so easy to get manny to agree to a gradient lmfao
how did manny lose to aiden?
holy fuck
https://tenor.com/9Zye.gif me to other proles
Smh
DESTROYED
@actual_communist_boi Is just a sophist
This is pure humiliation
doesn't care about "Truth" only winning
absolutely shameless
destruction
SHAME
LESS
DA DA DA
SIX INCHES
X: {0, (0, 1), 1}
Y: {0, 0, 1}
any X -> Y is a binary function
X: {0, (0, 1), 1}
Y: {0, (0, 1), 1}
any X -> Y is a gradient function
A: If the process t(0)->t(1) is binary, then we should observe t([0, 1)) == 0 and t({1}) == 1
B: If the process t(0)->t(1) is binary, then we should observe t({0}) == 0, 0, t((0,1)) < 1, t({1}) == 1
X: {0, (0, 1), 1}
Y: {0, 0, 1}
any X -> Y is a binary function
X: {0, (0, 1), 1}
Y: {0, (0, 1), 1}
any X -> Y is a gradient function
A: If the process t(0)->t(1) is binary, then we should observe t([0, 1)) == 0 and t({1}) == 1
B: If the process t(0)->t(1) is binary, then we should observe t({0}) == 0, 0, t((0,1)) < 1, t({1}) == 1
THE GREAT MIGRATION
Definition 1:
X: {0, (0, 1), 1}
Y: {0, 0, 1}
any X -> Y is a binary function
Definition 2:
X: {0, (0, 1), 1}
Y: {0, (0, 1), 1}
any X -> Y is a gradient function
A: If the process t(0)->t(1) is binary, then we should observe t([0, 1)) == 0 and t({1}) == 1
B: If the process t(0)->t(1) is gradient, then we should observe t({0}) == 0, 0, t((0,1)) < 1, t({1}) == 1
<:Boomer:644902956130500608>
GO GO GO